F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This newsletter from the Digital Technologies in Focus project includes information about schools' projects, assessment tasks, artifical intelligence (AI), the Australian Curriculum, useful links, and resources.
This newsletter from the Digital Technologies in Focus project includes information about an On Country staff development day with Leonara District High School, cybersecurity, the Australian Curriculum, and useful resources.
This webpage provides users with a menu of schools whose experiences with Digital Technologies are described in detail.
This document presents the milestones in Faith Lutheran College's participation in the Digital Technologies in Focus project.
This podcast includes information about the aims, challenges, insights and accomplishments of Mossman State School's participation in the Digital Technologies in Focus project.
This video explains the progress that Wodonga South Primary School has made in the Digital Technologies in Focus project. It is the second in a series of four.
In this lesson students explore slalom sports and how competitors maximise speed when completing a course. Students research different slalom sports and then share their findings with the class. Students investigate the impact of distance and friction on time to complete a course through digital and unplugged activities. ...
This video is the first of a series of 5 explainers on artificial intelligence. It discusses why it is a challenge for a computer to easily recognise one object from another. Discover how a machine learns using labelled images rather than following a specific set of rules and how AI connects with human learning.
A game for students to understand how to be safe when using railway and tram crossings. Students will read stories of characters, interpreting the unsafe behaviour shown and creating/placing a sign to remind all crossing users of the safe behaviour. As a learning artefact students produce a report detailing the unsafe ...
This is the third in a series of lessons to transition from visual coding to text-based coding with a general-purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to generate and use random numbers.
Students engage in a photo rip up activity to emphasize the permanency of online information, they explore factor trees, doubling and line graphs through the lens of sharing information, and they collaboratively develop a set of protocols around sharing information online.
This lesson builds on How can an AI recognise what is sees? It focuses on image recognition that involves feature extraction, object detection and classification, and introduces the idea that computers store and use data using 0s and 1s.
Incorporating 11 tutorial videos and two informative lecture videos, this learning sequence explores natural language processing, a significant application of artificial intelligence. Teachers and students are led through the coding in Python of a chatbot, a conversational program capable of responding in varied ways to ...
This is the fifth in a series of lessons to transition from visual coding to text-based coding with a general purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to create and use arrays (also called lists).
Home automation is all the rage. You talk to your mobile phone to control the lights, the fan, the air conditioner, or your pool pump. But how does it work? In this lesson, we explore the AI that could power a home automation system.
In this lesson students use BeeBots and Scratch Junior to synthesize what they know about Bees and are introduced to mapping concepts. This lesson idea was created by Karen Butler.
This lesson sequence intentionally uses a visual based programming tool to introduce designing and validating algorithms. Those students who complete this task can move to code the result in any text based language with which they are familiar.
This lesson sequence provides an introduction to the skill of decomposition by having students develop discrete modules which together serve a single need: a maths teacher asks for a program that can be used to demonstrate aspects of maths. This sequence can be used in conjunction with ‘Comparing and selecting appropriate ...
Using four inventions from 1985, this lesson sequence explores the impact of innovation, supporting circumstances, how individuals contribute to change and the importance of addressing benefits as well as risks in the development of new systems.
This lesson will explore how to program the Sphero using functions and show the benefits of decomposing the behaviour of the Sphero into functions, instead of writing line by line repeated behaviours. This lesson idea was created by Celia Coffa.